Pairing Symmetry of CeCoIn5 Detected by In-plane Torque Measurements

Abstract

In-plane torque measurements were performed on heavy fermion CeCoIn5 single crystals in the temperature T range 1.8 K ≤ T ≤ 10 K and applied magnetic field H up to 14 T. The normal-state torque is given by τn H4(1+T/TK)-1 4φ. The reversible part of the mixed-state torque, obtained after subtracting the corresponding normal state torque, shows also a four-fold symmetry. In addition, sharp peaks are present in the irreversible torque at angles of π/4, 3π/4, 5π/4, 7π/4, etc. Both the four-fold symmetry in the reversible torque and the sharp peaks in the irreversible torque of the mixed state imply dxy symmetry of the superconducting order parameter. The field and temperature dependences of the reversible mixed-state torque provide further evidence for dxy wave symmetry. The four-fold symmetry in the normal state has a different origin since it has different field and temperature dependences than the one in the mixed state. The possible reasons of the normal state four-fold symmetry are discussed.